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INSTRUCTION MANUAL·MIG SERIES 1
INVERTER WELDER
INSTRUCTION MANUAL
SWITCHING BOX
GAS HOSE
MODEL: MIG250/MIG350/MIG500
INSTRUCTION MANUAL·MIG SERIES 2
TABLE OF CONTENTS
1. Safety….………………………..………………..…………….……………….…..…………………… 2
2. General Description………..…………………………………………………………………………… 3
3. Schematic Block Diagram……...........…….....……………….………….………………………....... 4
4. Main Parameter…….…………………………………………………………………………………… 4
5. Panel Description……….……..……….……………………………………………………………….. 5
6. Installation & Operation…………………….……..……….……………………………...................... 7
7. Caution……………..….……………….……..……….…………………………….. …....................... 10
8. Maintenance…..…………….……………….……..……….…………………………………………... 10
9. Troubleshooting……...……..….………...………….……………….……….…................................ 11
10. Welding Parameters Table…………………………………………………………………………… 12
DECLARATION OF CONFORMITY
Hereby we declare that these machines are produced based on relative Chinese and international
standards and they conform to the international safety standard IEC60974-1. The design and technology
adopted in these machines are under patent protection.
Please read and understand this manual carefully before the installation and operation of these
machines.
1. The contents of this manual may be revised without prior notice and without obligation.
2. Although carefully checked, there may still be some inaccuracies in this manual. Please consult
us if any.
INSTRUCTION MANUAL·MIG SERIES 3
3. This manual is issued in Sep 2009.
1. SAFETY Welding is dangerous, and may cause damage to you and others, so take good protection when welding.
For details, please refer to the operator safety guidelines in conformity with the accident prevention
requirements of the manufacturer.
Professional training is needed before operating the
machine.
Use labor protection welding supplies authorized by
national security supervision department.
The operator must be qualified personnel with a
valid "metal welding (OFC) operations" operation
certificate.
Cut off power before maintenance or repair.
Electric shock—may lead to serious injury or even
death.
Install earth device according to the application
criteria.
Never touch the live parts when skin bared or
wearing wet gloves/clothes.
Make sure that you are insulated from the ground
and workpiece.
Make sure that your working position is safe.
Smoke& gas—may be harmful to health.
Keep your head away from smoke and gas to avoid
inhalation of exhaust gas from welding.
Keep the working environment well ventilated with
exhaust or ventilation equipment when welding.
INSTRUCTION MANUAL·MIG SERIES 4
Arc radiation—may damage eyes or burn skin.
Wear suitable welding masks and protective
clothing to protect your eyes and body.
Use suitable masks or screens to protect
spectators from harm.
Improper operation may cause fire or explosion.
Welding sparks may result in a fire, so please make
sure no combustible materials nearby and pay
attention to fire hazard.
Have a fire extinguisher nearby, and have a trained
person to use it.
Airtight container welding is forbidden
Do not use these machines for pipe thawing.
Hot workpiece may cause severe scalding.
Do not contact hot workpiece with bare hands.
Cooling is needed during continuous use of the
welding torch.
Magnetic fields affect cardiac pacemaker.
Pacemaker users should be away from the welding
spot before medical consultation.
Moving parts may lead to personal injury.
Keep yourself away from moving parts such as fan.
All doors, panels, covers and other protective
devices should be closed during operation.
Please seek professional help when encountering
machine failure.
Consult the relevant contents of this manual If you
encounter any difficulties in installation and
operation.
Contact the service center of your supplier to seek
professional help if you still can not fully understand
after reading the manual or still can not solve the
problem according to the manual.
2. GENERAL DESCRIPTION
INSTRUCTION MANUAL·MIG SERIES 5
MIG, MMA and gasless self-shielded welding are available for the machine.
IGBT power device with unique control mode improves the reliability of welding machine.
High duty cycle ensures long time welding.
Closed loop feedback control, constant voltage output, workable under mains voltage fluctuation
within ±15%.
Adjustable welding voltage and current, excellent welding characteristics.
Adopting unique welding dynamic characteristic control circuit in MIG, stable arc, little spatter,
beautiful weld bead, high welding efficiency.
Removing tip ball after welding, high no-load voltage, slow wire feeding, high successful rate of arc
ignition.
Stable welding current in MMA, excellent arc ignition, various electrodes applicable.
High inverter frequency greatly reduces the volume and weight of the welder.
Great reduction in magnetic and resistance loss obviously enhances the welding efficiency and
energy saving effect.
Switching frequency is beyond audiorange, which almost eliminates noise pollution.
3. SCHEMATIC BLOCK DIAGRAM
4. MAIN PARAMETER
MODEL MIG250 MIG350 MIG500
Input voltage (V) Single-phase
AC220V±15%,50/60Hz
3-phase
AC415V±15%,50/60Hz
Rated input current (A) 55 19.4 34
Rated power supply capacity (KVA) 12.6 14 24.7
Recommended fuse capacity (A) 70 40 60
MMA welding current range (A) 10~250 20~350 20~500
MIG current range (A) 20~250 50~350 50~500
MIG voltage range (V) 11~29 15~36 15~48
INSTRUCTION MANUAL·MIG SERIES 6
No-load voltage (V) 54 60 75
Wire feed speed range(m/min) 1.5~16 1.5~16 1.5~18
Electrode diameter applicable (mm) 0.6/0.8/0.9 /1.0 0.8/1.0/1.2 1.0/1.2/1.6
Rated duty cycle 35% 40℃ 40% 40℃ 60% 40℃
Efficiency (%) 85 85 85
Power factor 0.75 0.93 0.93
Protection class IP21S
Insulation class F
Size (mm) 595×285×324 595×285×470 595×285×543
Weight (Kg) 26 32 35
INSTRUCTION MANUAL·MIG SERIES 7
5. PANEL DESCRIPTION
5.1 Front panel
O.C
MIG 350
1. Crater current
2. Crater voltage
3. 2T/4T switch
4. Gas check switch
5. Current meter
6. Power LED
7. Overheating LED
8. Overcurrent LED
9. MIG/MMA switch
10. Voltage meter
11. Inductance control knob
12. Current control knob in MMA
13. “+” output terminal “1”
14. “-” output terminal
INSTRUCTION MANUAL·MIG SERIES 8
5.2 Back panel
V
15. Burnback time control knob
16. Wire buckle
17. Nameplate
18. Power switch
19. Socket of wire feeder
20. “+” output terminal “2”
21. Fan
INSTRUCTION MANUAL·MIG SERIES 9
6. INSTALLATION & OPERATION
Note: - Please install the machine strictly according to the following steps.
- Turn off the power supply switch before any electric connection operation.
- The protection class of this machine is IP21S, so avoid using it in rain.
6.1 Connection of input cable
1) A primary power supply cable is available for this welding machine. Connect the power supply cable to
the rated input power. (Ground connection is needed for safety purpose.)
2) The primary cable should be tightly connected to the correct socket to avoid oxidization.
3) Check whether the voltage value varies in acceptable range with a multi-meter.
6.2.1 MMA installation
1) Two quick plugs are available for this welding machine. Insert the quick plugs into the quick sockets on
the front panel of the machine, and tighten them to ensure good contact. Otherwise, the plugs and
sockets will be burned if the working time is long and the working current is high.
2) Insert the cable plug with electrode holder into the “+” socket on the front panel of the welding machine,
and tighten it clockwise. Insert the cable plug with work clamp into the “-” socket on the front panel of
the welding machine, and tighten it clockwise.
3) Generally, DCEP connection and DCEN connection are available in MMA.
DCEP: Connect the electrode holder to “+” output terminal, and the work clamp to “-” output terminal.
DCEN: Connect the electrode holder to “-” output terminal, and the work clamp to “+” output terminal.
Operators may choose connection mode according to workpiece and electrode application requirement.
Phenomena such as unstable arc, excessive spatter, and electrode sticking will occur when improper
connection mode is selected. Change the connection by exchanging the fast plugs to solve the problem.
4) Select cable with larger cross-section to reduce the voltage drop if the secondary cables (welding cable
and earth cable) are long.
6.2.2 Sketch map of installation
SWITCHING BOX
INSTRUCTION MANUAL·MIG SERIES 10
6.2.3 Operation method
1) After being installed according to the above method, and the air switch on the back panel being switched
on, the machine is started with the power LED on and the fan working.
2) Switch the MMA/MIG switch to MMA mode, and adjust the welding current with the current control knob
according to the thickness of workpiece.
3) Generally, welding current should be as below according to the electrode diameter.
Φ2.5: 70-100A; Φ3.2: 110-160A; Φ4.0: 170-220A; Φ5.0: 230-280A
6.3.1 MIG installation
1) A primary power supply cable is available for this welding machine. Connect the power supply cable to
the rated input power. (Ground connection is needed for safety purpose.)
2) Insert the quick plug on the wire feeder into the “+” socket on the front panel of the welding machine,
and tighten it clockwise.
3) Insert the cable plug with work clamp into the “-” socket on the front panel of the welding machine, and
tighten it clockwise.
4) Install the welding torch and Install the wire spool on the spindle shaft, ensuring that the groove size in
the feeding position on the drive roll matches the contact tip size of the welding torch and the wire size
being used. Insert the aviation plug of the wire feeder into the aviation socket on the front panel of the
machine, and press the wire inching button to thread the wire out of the torch head.
5) Connect the wire feeder to the flow regulator on the cylinder with the gas hose.
6.3.2 Sketch map of installation
GAS HOSE
SWITCHING BOX
INSTRUCTION MANUAL·MIG SERIES 11
6.3.3 Operation method
1) After being installed according to the above method, and the air switch on the back panel being switched
on, the machine is started. Open the cylinder valve, and turn the gas check switch to the “GAS CHECK”
position. Then, there will be gas output. Adjust the flow regulator to get the proper gas flow.
2) Get the proper arc by adjusting the inductance control knob. Turn the knob anticlockwise to get lower
inductance and harder arc; turn it clockwise to get higher inductance and softer arc. Generally, select
harder arc under lower current, while select softer arc under higher current.
3) Select proper welding voltage and welding current by adjusting the current control knob and voltage
control knob on the wire feeder.
4) Select 2T or 4T operation mode. In 2T mode, arc is ignited by pushing the gun trigger, and arc stops by
releasing the gun trigger. In 4T mode, welding can be continued when releasing the gun trigger after arc
is ignited, and at this time, welding instructions should be set by adjusting the current control knob and
voltage control knob on the wire feeder. When pushing the gun trigger again, the machine enters into
crater welding, and at this time, welding instructions should be set by adjusting the crater current control
knob and crater voltage control knob on the front panel of the machine. The time of crater welding is
determined by the time the gun trigger is pushed again.
5) 1s after the arc stops, the gas supply will be cut off.
6.4 Welding procedure
1) Welding current setting
Set the welding current after the above preparation. Short circuit transition is mainly fit for electrodes of
φ1.0~1.6mm, and it is the phenomenon occurring in the condition of thin electrodes, low voltage and
low current. At this time, stable welding, little spatter and beautiful weld bead can be ensured. Set the
welding current according to the figure below. For different working condition, please refer to the welding
parameter table section in this manual.
Current in short circuit transition
Electrodeφ(mm) Applicable current (A) Optimal current (A)
0.8 50~120 70~100
1.0 70~180 80~120
1.2 80~350 100~200
1.6 140~500 140~350
2) Welding speed selecting
The welding quality and productivity should be taken into consideration for the selecting of welding speed.
In the case that the welding speed increases, it weakens the protection effect and quickens the cooling.
As a consequence, it is not good for weld bead shaping. In the event that the speed is too slow, the
workpiece will be burned through, and beautiful weld bead will be unavailable. In practical operation, the
welding speed should not exceed 50cm/min.
3) Stick-out selecting
The increase of the stick-out can improve the productivity, but too long stick-out may lead to excessive
spatter, wire breaking and unstable welding. Generally, the stick-out should be 10 times as the electrode
diameter.
4) Shield gas flow selecting
The protection effect is the primary consideration. Besides, the protection effect of inner-angle welding is
better than that of external-angel welding, so the gas flow in inner-angle welding should be smaller. Less or
no shield gas is needed in FCAW. Refer to the figure below for the specific value of gas flow.
INSTRUCTION MANUAL·MIG SERIES 12
Gas flow selecting
Welding mode Welding with thin wire Welding with thick wire Welding with thick wire
under high current
Gas flow (L/min) 5~15 15~20 20~25
7. CAUTION
7.1 Working Environment
1) Welding should be carried out in dry environment with humidity of 90% or less.
2) The temperature of the working environment should be between -10℃ and 40℃.
3) Avoid welding in the open air unless sheltered from sunlight and rain. Keep it dry at all times and do not
place it on wet ground or in puddles.
4) Avoid welding in dusty area or environment with corrosive chemical gas.
5) Gas shielded arc welding should be operated in environment without strong airflow.
7.2 Ventilation
This welder can create powerful welding current that has strict cooling requirements that cannot be met with
natural ventilation. Therefore the built-in fan is very important in enabling the machine to work steadily with
effective cooling. The operator should make sure that the louvers be uncovered and unblocked. The
minimum distance between the machine and nearby objects should be 30cm. Good ventilation is of critical
importance to the normal performance and lifespan of the machine.
7.3 Overvoltage is forbidden.
Regarding the power supply voltage range of the machine, please refer to “Main Parameters” table. This
machine is of automatic voltage compensation, which enables the maintaining of the voltage range within
the given range. In case that the input voltage exceeds the stipulated value, it would possibly damage the
components of the machine.
7.4 Overload is forbidden.
Remember to observe the max load current at any moment (refer to the corresponding duty cycle). Make
sure that the welding current should not exceed the max load current. Overload could obviously shorten the
machine's lifespan, or even damage the machine.
7.5 Overheating protection
A sudden halt may occur with the overheating LED on the front panel on while the machine is of over-load
status. Under this circumstance, it is unnecessary to restart the machine. Keep the built-in fan working to
lower the temperature inside the machine. Welding can be continued after the inner temperature falls into
the standard range and the overheating LED is off.
8. MAINTENANCE
WARNING: The following operation requires sufficient professional knowledge on
electric aspect and comprehensive safety knowledge. Operators should be holders of
valid qualification certificates which can prove their skills and knowledge. Make sure
the input cable of the machine is cut off from the electricity utility before uncovering
the welding machine.
1) Check periodically whether inner circuit connection is in good condition (esp. plugs). Tighten the loose
connection. If there is oxidization, remove it with sandpaper and then reconnect.
2) Keep hands, hair and tools away from the moving parts such as the fan to avoid personal injury or
machine damage.
3) Clean the dust periodically with dry and clean compressed air. If welding environment with heavy smoke
INSTRUCTION MANUAL·MIG SERIES 13
and pollution, the machine should be cleaned daily. The pressure of compressed air should be at a
proper level in order to avoid the small parts inside the machine being damaged.
4) Avoid rain, water and vapor infiltrating the machine. If there is, dry it and check the insulation of the
equipment (including that between the connections and that between the connection and the enclosure).
Only when there are no abnormal phenomena anymore, can the machine be used.
5) Check periodically whether the insulation cover of all cables is in good condition. If there is any
dilapidation, rewrap it or replace it.
6) Check periodically whether the gas hose is in good condition. If there are any cracks, replace it.
7) Put the machine into the original packing in dry location if it is not used for a long time.
9. TROUBLESHOOTING
WARNING: The following operation requires sufficient professional knowledge on
electric aspect and comprehensive safety knowledge. Operators should be holders of
valid qualification certificates which can prove their skills and knowledge. Make sure
the input cable of the machine is cut off from the electricity utility before uncovering
the welding machine.
Common Malfunction Analysis and Solution:
Malfunction phenomena Solution
The overheating LED is on.
1. Check the welding current and welding time. Refer to the manual,
and operate according to the requirement.
2. Check the running status of the fan when welding. If the fan does not
work, check if the power supply of the fan is 230V: If the power
supply is normal, check the fan; if the power supply is abnormal,
check the connecting cable of the power supply.
3. Replace the thermal switch if it is damaged.
There is no response when
pushing the gun trigger, and
the protection LED is off.
1. Check if the power LED is on, and if the digital meter shines.
2. Check if the gun trigger is in good contact, and check the welding
torch for good connection.
3. Check the wire feeder for good connection.
Wire feeder feeds wire when
pushing the gun trigger to feed
gas, but there is no output
current, and the protection
LED is off.
1. Check if the power cord connected to the workpiece is in good
contact.
2. Check if the quick plug is connected to correct quick socket.
3. Check if the wire feeder is well connected.
4. Check the welding torch for damage.
5. The control PCB PK-94 inside the machine fails.
There is output current when
pushing the gun trigger to feed
gas, but the wire feeder does
not feed wire.
1. Check the wire feeder for clogging or damage.
2. Check the contact tip of welding torch for clogging or damage.
3. The wire feed board PK-93 fails.
INSTRUCTION MANUAL·MIG SERIES 14
Welding can be carried out
when pushing the gun trigger,
but the voltage cannot be
adjusted. The no-load voltage
is too high.
1. Check if control cable of the wire feeder is in good condition.
2. The control PCB inside the machine fails.
Welding current is unstable.
1. Check the pressure arm on the wire feeder for proper pressure.
2. Check if the drive roll matches the wire size being used.
3. Check the contact tip of the welding torch for wear. Replace it and
tighten it if necessary.
4. Check the welding wire for good quality.
5. Check if the torch cable is too twisted.
6. Check if the quick plug is loosely connected.
Weld bead is not well
protected.
1. Do not move the welding torch away immediately when stopping
welding, so that the shielded gas can protect the weld bead.
2. Prolong the post-flow time of the shielded gas, and contact our
company.
There are big craters after
welding.
1. Select 4T mode, and carried out crater welding under low current.
2. Change the operation mode.
10. WELDING PARAMETERS TABLE (for reference only)
Welding current and welding voltage directly influences the welding stability, welding quality and
productivity. In order to obtain good welding performance, the welding current and welding voltage should
be set optimally generally according to the electrode diameter, the mode of metal transfer and the
production requirement.
Set the welding current and welding voltage according to the below tables.
1) Parameters for I-type butt-welding
Plate thickness
t (mm)
Gap g (mm)
Electrode
φ(mm)
Welding current
(A)
Welding voltage
(V)
Welding speed
(cm/min)
Gas flow (L/min)
Layer
1.2 0 1.0 70~80 17~18 45~55 10 1
1.6 0 1.0 80~100 18~19 45~55 10~15 1
2.0 0~0.5 1.0 100~110 19~20 40~55 10~15 1
2.3 0.5~1.0 1.0 or 1.2 110~130 19~20 50~55 10~15 1
3.2 1.0~1.2 1.0 or 1.2 130~150 19~21 40~50 10~15 1
4.5 1.2~1.5 1.2 150~170 21~23 40~50 10~15 1
INSTRUCTION MANUAL·MIG SERIES 15
2) Parameters for flat fillet welding
Plate thickness
t (mm)
Corn size I (mm)
Electrode
φ(mm)
Welding current
(A)
Welding voltage
(V)
Welding speed
(cm/min)
Gas flow (L/min)
1.2 2.5~3.0 1.0 70~100 18~19 50~60 10~15
1.6 2.5~3.0 1.0 ~ 1.2 90~120 18~20 50~60 10~15
2.0 3.0~3.5 1.0 ~ 1.2 100~130 19~20 50~60 10~20
2.3 2.5~3.0 1.0 ~ 1.2 120~140 19~21 50~60 10~20
3.2 3.0~4.0 1.0 ~ 1.2 130~170 19~21 45~55 10~20
4.5 4.0~4.5 1.2 190~230 22~24 45~55 10~20
3) Parameters for fillet welding in the vertical position
Plate thickness
t (mm)
Corn size I (mm)
Electrode
φ(mm)
Welding current
(A)
Welding voltage
(V)
Welding speed
(cm/min)
Gas flow (L/min)
1.2 2.5~3.0 1.0 70~100 18~19 50~60 10~15
1.6 2.5~3.0 1.0 ~ 1.2 90~120 18~20 50~60 10~15
2.0 3.0~3.5 1.0 ~ 1.2 100~130 19~20 50~60 10~20
2.3 3.0~3.5 1.0 ~ 1.2 120~140 19~21 50~60 10~20
3.2 3.0~4.0 1.0 ~ 1.2 130~170 22~22 45~55 10~20
4.5 4.0~4.5 1.2 200~250 23~26 45~55 10~20
INSTRUCTION MANUAL·MIG SERIES 16
4) Parameters for Lap Welding
Plate thickness
t (mm)
Welding position
Electrode
φ(mm)
Welding current
(A)
Welding voltage
(V)
Welding speed
(cm/min)
Gas flow (L/min)
1.2 A 1.0 80~100 18~19 45~55 10~15
1.6 A 1.0 ~ 1.2 100~120 18~20 45~55 10~15
2.0 A or B 1.0 ~ 1.2 100~130 18~20 45~55 15~20
2.3 B 1.0 ~ 1.2 120~140 19~21 45~50 15~20
3.2 B 1.0 ~ 1.2 130~160 19~22 45~50 15~20
4.5 B 1.2 150~200 21~24 40~45 15~20
5) Parameters for MAG
Material: Carbon steel
Gas: Ar+CO2 mixed gas (10~15L/min)
Junction
type
Plate
thickness
(mm)
Electrode
φ(mm)
Gap
g(mm)
Welding condition
Current (A) Voltage (V) Welding speed
(cm/min)
I- type
1.0 1.0 0 50~55 13~15 40~55
1.2 1.0 0 60~70 14~16 30~50
1.6 1.0 0 100~110 16~17 40~60
2.3 1.0 or 1.2 0 ~1.0 110~120 17~18 30~40
3.2 1.0 or 1.2 1.0~1.5 120~140 17~19 25~30
4.0 1.2 1.5~2.0 150~170 18~21 25~40
We are still constantly improving this welder, therefore, some parts of this welder may be changed
in order to achieve the better quality, but the main functions and operations will not be alternated.
Your understanding would be greatly appreciated.